Upload
others
View
3
Download
0
Embed Size (px)
Citation preview
Project6–RollerCoaster
The Folded Paper Ramp/Tube Roller Coaster of Ultimate Domination
6 December 2008
Mohammad Salehi
Jay Lockaby
Kyle Elich
Danny Holbert
All members of this group have read and approve this report.
ii
Abstract
The main goal of this project was to make a roller coaster that lasted 15
seconds and still fit the constraints given to us. The roller coaster that we made had to
fit inside the 0.5 m x 0.5 m x 0.5 m size parameters. Our group started off with
purchasing materials for our project. We bought marbles and BB’s to act as the roller
coaster car but in the end we just decided to use BB’s to go through our roller coaster.
During the building process of our roller coaster, we realized that we had bought
more materials than we actually needed. At first we tried designing the roller coaster
using skinny, plastic tubing to start off with. We found that even when we started the
tubing at the highest height we could, we could not make the roller coaster last long
enough with just tubing. Therefore, we decided that using very slightly angled ramps
in the beginning to make the BB roll slower would be the best option. After the
angled ramps made out of a poster board, the roller coaster was built so that the BB
then rolls straight into the plastic tubing towards the end of the coaster. In this way we
were able to make the coaster last long enough for the requirements of this project.
Overall, we learned to make sure the design of the roller coaster made the length of
the ride last as close to 15 seconds as possible through trying to use several different
designs which we had to troubleshoot in order to get the final product of our design.
1
Introduction
The objective of this project was to work together as a team to construct a roller
coaster functioning efficiently enough to sustain the run of an object that lasts
approximately 15 seconds by using principles learned in EF 151. After drawing up the
plans and constructing our roller coaster, we then put our raw data in a presentable form
that allowed us to communicate our findings by making a PowerPoint presentation. By
applying the knowledge we acquired in EF 151, we were able to build an efficient roller
coaster and use forms of communication used by engineers to display our results.
Design Process
The design process for our roller coaster lasted several days and was the most
time intensive portion of the project. We began with the idea of using paper towel rolls
and construction paper to build very slightly angled ramps, but found the structural
integrity to be far too weak. We allowed ourselves to be influenced by our peers and
attempted to design a more complex, wooden structure utilizing PVC pipes and wood
scraps from Estabrook 113. However complex the second design may have been, it still
wasn’t anywhere near the 15 second requirement. It consisted of a wooden frame and
base with PVC pipes suspended from the top. The pipes crossed three times exiting into a
plastic tube which concluded the roller coaster in a final loop. Our final design was a
revision of the previous one, but was far simpler. The base and structure were kept, but
instead of suspended PVC, we placed a poster board backing to the structure and taped
paper ramps to it. The ramps were at extremely slight declines and carried the ball from
one side to the other three times. Plastic tubing was taped to the end of the last ramp to
2
catch the ball and send it into a loop. We had reached ground level by this point and still
need several more seconds, so we suspended a ramp from the structure and attached
another pole closer to the center of the base plate.
Device Description
The construction of our roller coaster device began with the purchasing of the
materials to build the roller coaster. The materials used to make our device included scrap
pieces of wood, a roll of tape, glue, poster board and foam boarding, narrow plastic
tubing, nails, BB’s, and string. The plastic tubing cost $3.75, the BB’s were $6.99, the
scrap wood cost about $5.00, the tape cost $2.50, the glue cost $1.99, the poster board
and foam boarding together cost $1.29, the nails cost $2.00, and the string cost about
$1.00. Therefore the total amount spent on the project by our team adds up to $24.52. Our
device was designed to have a BB act as the car on our roller coaster track. The BB starts
out at the highest height it can be at 0.5 m. The first ramp starts out from the middle of
the box, angles down slightly, and continues straight to another slightly angled ramp. The
ramps are supported by a piece of wood nailed to the middle of the baseboard. The ramps
lead the BB towards the side of the project where three ramps made of poster board are
connected to a foam board sticking straight up. When the BB hits the board, it
momentarily stops and drops down onto a ramp, which is perpendicular to the second
ramp. The third ramp is also very slightly angled and at the end of the ramp, the BB hits
the piece of wood and drops onto another ramp which is the same size at the third one
except the opposite direction. There is one more ramp which repeats the same process
3
except at the end, the BB rolls straight into the plastic tubing which curves around the
wood sticking up from the center of the base. After that, the tubing drops in order to
make the BB go faster and then goes through a loop in the tubing. The BB exits the
tubing and is stopped by a small paper towel tube.
Results:
Ramps/tube Potential Energy at the
Beginning
(N*m)
Potential Energy After
(N*m)
Change in Potential Energy
(N*m)
Velocity at the end of section
(m/s)
R start 4.6097 4.2359 .37379 .86459
R1 4.2359 4.1113 .12459 .49917
R2 3.7999 3.6753 .12459 .49917
R3 3.30155 3.1769 .12459 .49917
Tube 1 3.17696 0 3.1769 2.5696
Tube loop 0 1.1212 1.1212 2.0881
Tube exit 1.1212 0 2.0557 2.5696
Conclusions
When faced with the objective of developing a functioning roller coaster that lasts
a certain time limit it is easy to be lulled into a sense of complacency. We thought that it
was going to be a piece of cake, and very quickly we learned that it was going to be much
4
more difficult than we first thought. Simple tasks like setting up a stable, consistent track
for the BB were very difficult. To put it simply it was very hard to get the plans we had
on paper to translate into a functioning device. In the end however, we were able to
successfully put our plans into motion and construct the roller coaster. If faced with this
challenge again we would definitely spend more time coming up with a blueprint for our
coaster because our biggest problem came from having to rethink everything on the spot
during development.
5
Appendices: